JP6063201B2 - Operation device - Google Patents

Description

  The present invention relates to an operation device used as an input device for an information processing apparatus such as a game apparatus.

  The operation device disclosed in the following Patent Document 1 has operation members such as buttons and operation sticks. The operation device includes a circuit board on which a circuit and components for transmitting a signal corresponding to the operation of the operation member to the information processing apparatus are mounted.

US Pat. No. 6,394,906

  The operations that the user can perform on the conventional operation device are a button pressing operation, an operation stick tilted, and an operation of rotating the operation stick in the tilted state. If the operations by the user can be diversified, the operability of the operation device can be improved.

  The present invention provides an operation device that can further diversify operations by a user while suppressing a decrease in the degree of freedom in layout of components and wiring on a circuit board.

  The operation device according to the present invention includes a circuit board, a frame disposed on the upper side of the circuit board, and a plate-like operation member positioned on the upper side of the frame. The operation member includes a surface touched by the user's finger and a touch sensor for detecting the position of the user's finger touching the surface, and is arranged to be movable up and down so that the user can perform a pressing operation. . The operation device includes an elastic member that is disposed between the frame and the operation member and biases the operation member upward.

  According to the present invention, the user can slide a finger on the operation member or perform a pressing operation while sliding the operation member, thereby diversifying the operation method. In addition, since it is not necessary to provide a region for attaching the elastic member on the surface of the circuit board, it is possible to suppress a reduction in the degree of freedom in layout of components and wiring on the circuit board.

It is a perspective view of the operation device which concerns on embodiment of this invention. It is a top view of the said operation device. It is a disassembled perspective view of the operation device. It is a disassembled perspective view of an operation panel. It is sectional drawing in the VV line shown in FIG. It is sectional drawing in the VI-VI line shown in FIG. It is a disassembled perspective view which shows the lower surface of an upper housing and an operation panel. It is a disassembled perspective view which shows the example in which the elastic member is formed with the spring. It is sectional drawing which shows the example in which the elastic member is formed with the spring. It is a figure which shows the modification of an operation panel.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a perspective view of an operation device 1 according to an embodiment of the present invention. FIG. 2 is a plan view of the operation device 1. FIG. 3 is an exploded perspective view of the operation device 1. In FIG. 3, the upper housing 41, the operation panel 50, the frame 60, and the circuit board 70 are shown. FIG. 4 is an exploded perspective view of the operation panel 50. 5 is a cross-sectional view taken along line VV shown in FIG. 6 is a cross-sectional view taken along line VI-VI shown in FIG. FIG. 7 is an exploded perspective view showing the lower surface of the upper housing 41 and the operation panel 50. In the following description, Y1 and Y2 shown in FIG. 1 are front and rear, respectively. X1 and X2 indicate the right direction and the left direction, respectively. Z1 and Z2 indicate the upper side and the lower side, respectively.

  The operation device 1 is used as an input device for an information processing apparatus having a game program execution function, a moving image reproduction function, a communication function through the Internet, and the like. The operation device 1 can perform wired or wireless communication with the information processing apparatus, and transmits a signal corresponding to a user operation to the information processing apparatus. The operation device 1 incorporates various sensors (acceleration sensor, gyro sensor, etc.) used for detecting the attitude and movement of the operation device 1, a battery, and the like.

  As shown in FIG. 1, the operation device 1 has left and right held parts 10 </ b> L and 10 </ b> R that are held by the user on the left and right parts, respectively. The front portions of the held portions 10L and 10R are connected by a central portion 21. An operation member for a user to operate is provided on the upper surfaces of the front portions of the held portions 10L and 10R. A plurality of operation buttons 11 are provided on the upper surface of the front portion of the right held portion 10R. The operation device 1 has four operation buttons 11, which are located at the ends of the cross. A directional key 19 having a cross shape is provided on the upper surface of the front portion of the left held portion 10L. The held portions 10 </ b> L and 10 </ b> R have a grip 12. The grip 12 extends rearward from the front portions of the held portions 10L and 10R.

  The operation device 1 has left and right operation sticks 31 at the rear part of the central part 21. As shown in FIG. 1, the operation stick 31 extends upward from the central portion 21, and has a circular operated portion 31 b at the upper end for the user's finger to touch. The operation stick 31 can be tilted in the radial direction, for example, or rotated in a tilted state. The operation device 1 detects the direction and amount of tilt of the operation stick 31, and transmits a signal corresponding to the detected direction to the information processing apparatus. Further, the operation stick 31 may be slidable in the radial direction. In this case, the operation device 1 detects the movement amount (for example, the movement amount in the front-rear direction and the movement amount in the left-right direction) of the operation stick 31 in two orthogonal directions defined in advance, and processes signals corresponding thereto. Send to device.

  As shown in FIG. 1, the operation device 1 has an operation panel 50 that is a plate-shaped operation member. The operation panel 50 includes a surface touched by the user's finger and a touch sensor 52 for detecting the position of the user's finger touching the surface (see FIG. 4). The operation panel 50 is disposed on the upper surface of the central portion 21 and is positioned between operation members (the operation button 11 and the direction key 19) provided in the held portions 10R and 10L. Further, the operation panel 50 in this example is disposed in front of the left and right operation sticks 31.

  As shown in FIG. 2, the user can touch the surface of the operation panel 50 by extending the finger placed on the operation button 11 and the direction key 19 while holding the held portions 10R and 10L. For example, the user slides a finger in an arbitrary direction on the operation panel 50. The operation device 1 continuously detects the position of the finger on the operation panel 50 using the touch sensor 52, and transmits a signal indicating the detected position to the information processing apparatus. The information processing apparatus calculates the position of the user's finger, the slide direction, the slide speed, and the like based on the signal. These calculations may be performed by the operation device 1. The operation panel 50 in this example is supported so as to be movable up and down so that the user can perform a pressing operation. That is, the operation panel 50 also functions as a plate-like push button. The operation device 1 detects a pressing operation by the user and transmits a signal indicating the operation to the information processing apparatus. Based on the signal indicating the position of the user's finger and the signal indicating the pressing operation, the position where the user pressed the operation panel 50 can be detected. The structure for supporting the operation panel 50 will be described in detail later.

  As shown in FIG. 1, the operation device 1 has a housing 40. The housing 40 constitutes the outer surface of the operation device 1 and accommodates various components included in the operation device 1. The housing 40 in this example has an upper housing 41 and a lower housing 49, which are combined with each other in the vertical direction.

  As shown in FIG. 3, the operation device 1 has a circuit board 70. On the circuit board 70, electronic devices such as a control device that controls the entire operation device 1, a communication module that controls communication with the information processing device, and a connector are mounted. In FIG. 3, these electronic components are omitted.

  The operation device 1 has a plate-like frame 60 disposed on the upper side of the circuit board 70. The width in the left-right direction of the frame 60 in this example corresponds to the circuit board 70 and covers almost the entire area of the circuit board 70. The circuit board 70, the frame 60, and the upper housing 41 are fixed to each other. For example, the circuit board 70 and the upper housing 41 are fixed to each other with a fastener such as a spiral with the frame 60 interposed therebetween. In addition, each of the upper housing 41 and the circuit board 70 may be fixed to the frame 60 by a fastener such as a spiral. In FIG. 4, the holes of the circuit board 70 and the frame 60 into which the fasteners are inserted are omitted. As shown in FIGS. 5 and 7, the upper housing 41 in this example is formed with a plurality of bosses 41a extending downward, and the lower housing 49 is attached to the boss 41a.

  As described above, the operation device 1 has the operation stick 31. A support mechanism for supporting the operation stick 31 is provided at the base of the operation stick 31. For example, the support mechanism supports the operation stick 31 so that it can be tilted in an arbitrary direction. The support mechanism may support the operation stick 31 so as to be slidable. The support mechanism is disposed on the circuit board 70, and the frame 60 has a recess 60c at the rear edge for avoiding the support mechanism (see FIG. 3).

  As shown in FIG. 3, the upper housing 41 is formed with holes 41b, 41c, 41d. The button 11, the direction key 19, and the operation stick 31 are arranged inside the holes 41b, 41c, and 41d, respectively. A film 62 is disposed on the frame 60. The film 62 has contacts (for example, a membrane switch) and electric wires for detecting the operation of the button 11 and the direction key 19. The button 11 and the direction key 19 are electrically connected to the circuit board 70 through contacts and electric wires on the film 62. As shown in FIGS. 3 and 6, a hole 60 d that penetrates the frame 60 in the vertical direction is formed in the frame 60. The film 62 extends through the hole 60d to the lower side of the frame 60, that is, the circuit board 70 side.

  By arranging the frame 60 on the upper side of the circuit board 70, a space for arranging the support mechanism of the operation stick 31 is secured between the upper housing 41 and the circuit board 70, and at the same time, the operation of the button 11 and the direction key 19 is performed. The contact (that is, the film 62) for detecting the above can be disposed close to these. The film 62 is not provided with electronic parts that use solder for mounting. Therefore, a relatively inexpensive material can be used for the film 62.

  As shown in FIG. 5, the operation panel 50 is disposed on the upper side of the frame 60. As described above, the operation panel 50 is arranged to be movable up and down. Between the frame 60 and the operation panel 50, an elastic member 61 that biases the operation panel 50 upward is disposed. The elastic member 61 generates a reaction force when the user presses the operation panel 50. As shown in FIG. 3, the elastic member 61 is attached to the frame 60. In this example, a plurality (two in this example) of elastic members 61 are attached to the frame 60. The elastic member 61 is made of rubber. Thus, the frame 60 is disposed between the circuit board 70 and the operation panel 50, and the elastic member 61 is disposed between the frame 60 and the operation panel 50. A decrease in the degree of freedom of the wiring to be formed can be suppressed.

  As shown in FIG. 3, a recess 60 f is formed on the upper surface of the frame 60. The portions of the film 62 where the above-described contacts are formed are disposed on the right and left portions of the upper surface of the frame 60, and the recess 60f is located between the right and left portions. The elastic member 61 is disposed in the recess 60f. Therefore, the elastic member 61 can be disposed between the frame 60 and the operation panel 50 while reducing the distance between the film 62 and the button 11 and the direction key 19.

  As shown in FIG. 3, a switch 71 (a tact switch in this example) for detecting a downward movement of the operation panel 50 is mounted on the circuit board 70. The switch 71 is attached to the circuit board 70 by, for example, solder. The frame 60 has a shape that avoids a position corresponding to the switch 71. In the frame 60 in this example, a hole 60 a penetrating the frame 60 in the vertical direction is formed at a position corresponding to the switch 71. As shown in FIG. 5, the operation panel 50 has a pressing portion 55 a for pressing the switch 71 on the lower surface thereof. The push portion 55a in this example protrudes downward from the lower surface of the operation panel 50 (the lower surface of the frame 55 described later), and is positioned inside the hole 60a. When the operation panel 50 is pushed, the pushing portion 55a pushes the switch 71 beyond the frame 60. According to this structure, since the wiring which connects the circuit board 70 and the switch 71 is not required, the cost of the operation device 1 can be reduced. Further, since the switch 71 is not mounted on the film 62, an inexpensive material can be used for the film 62.

  As shown in FIG. 5, when the operation panel 50 is in the initial position, that is, when the operation panel 50 is not pressed, a clearance C1 is provided between the push portion 55a and the switch 71. More specifically, the switch 71 has a movable portion 71a at the uppermost portion thereof that is lowered when pressed by the pressing portion 55a and is biased upward. A clearance C1 is provided between the pressing portion 55a and the movable portion 71a. With this structure, after the user presses the operation panel 50, the reaction force increases when the pressing portion 55a hits the movable portion 71a. As a result, the user can recognize that the input to the switch 71 has been made appropriately.

  As shown in FIG. 3, the frame 60 is formed with a plurality of (two in this example) stopper portions 63 that protrude upward and are positioned below the operation panel 50. The stopper portion 63 limits the downward stroke of the operation panel 50 to a preset size. Thereby, it is possible to suppress an excessive load from being applied to the switch 71.

  As shown in FIG. 5, the two elastic members 61 are disposed on opposite sides of the pressing portion 55a and the hole 60a. In this example, the push portion 55 a is provided at the center of the operation panel 50. More specifically, the push part 55a is provided in the center of the left-right direction and the front-back direction. The two elastic members 61 are respectively disposed on the right side and the left side of the push portion 55a, and urge the right and left portions of the operation panel 50 upward. Each elastic member 61 is formed so as to generate a reaction force when either the front portion or the rear portion of the operation panel 50 is pressed.

  As shown in FIGS. 3 and 5, the elastic member 61 of this example has a contact portion 61 a in contact with the lower surface of the operation panel 50 (in this example, the lower surface of the frame 55). In this example, the contact portion 61 a has a cylindrical shape, and the upper surface thereof is in contact with the lower surface of the operation panel 50. The elastic member 61 has an annular elastic portion 61b formed at the lower edge of the contact portion 61a (see FIG. 5). The elastic part 61b extends radially and downward from the lower edge of the contact part 61a. The elastic portion 61b generates a reaction force when the contact portion 61a is lowered.

  Due to the above-described shape of the elastic member 61, for example, when the front portion of the operation panel 50 is pressed, the contact portion 61a is inclined forward, and the front portion of the elastic portion 61b generates a reaction force. On the other hand, when the rear part of the operation panel 50 is pushed, the contact part 61a is inclined backward, and the rear part of the elastic part 61b generates a reaction force. As described above, the elastic member 61 is disposed on the left and right of the pressing portion 55a. For this reason, the elastic member 61 can lower the pressed portion and generate a reaction force against it even when any position on the surface of the operation panel 50 is pressed.

  As shown in FIGS. 3 and 5, the elastic member 61 has a mounting portion 61c that extends horizontally from the lower edge of the elastic portion 61b. The attachment portion 61 c is attached to the frame 60. In this example, the frame 60 has a plurality of projections 60b (three in this example, see FIG. 3). A hole for fitting the protrusion 60b is formed in the attachment portion 61c.

  As shown in FIG. 3, the upper housing 41 is formed with an opening 42 for exposing the surface of the operation panel 50. The edge of the opening 42 includes a portion that restricts the upward movement of the operation panel 50. In this example, as shown in FIG. 5, the left and right edges 42 a of the opening 42 are formed along the right edge and the left edge of the operation panel 50 and project over the operation panel 50. The upward movement of the operation panel 50 is restricted by the edge 42a.

  The left and right edges 42a function as fulcrums when the operation panel 50 is pressed. For example, when the right part or the left part of the operation panel 50 is pressed, the operation panel 50 is inclined with the opposite edge 42a as a fulcrum. When the front part of the operation panel 50 is pushed, the rear part of the left and right edges 42a functions as a fulcrum, and the operation panel 50 is inclined. On the contrary, when the rear part of the operation panel 50 is pushed, the front part of the left and right edges 42a functions as a fulcrum, and the operation panel 50 is inclined. When the operation panel 50 is tilted in this way, the push portion 55a is lowered and the switch 71 is pushed. When a part of the outer periphery of the operation panel 50 (for example, the right part or the left part) is pressed, the pressing part 55a is also inclined. The hole 60a formed in the frame 60 has a size that allows this inclination of the pushing portion 55a.

  As shown in FIG. 4, the operation panel 50 of this example has a surface panel 51 made of resin and constituting the surface of the operation panel 50. The touch sensor 52 is disposed on the back surface of the front panel 51. The front panel 51 of this example is formed so that the width in the left-right direction increases toward the front. The shape of the front panel 51 is not limited to this. For example, the front panel 51 may be rectangular.

  The operation panel 50 in this example has a frame 55 that is disposed on the back side of the touch sensor 52 and forms the lower surface of the operation panel 50. The elastic member 61 is in contact with the frame 55. The pushing portion 55 a protrudes downward from the lower surface of the frame 55. By providing the frame 55 on the operation panel 50, it is possible to suppress the elastic member 61 from coming into contact with the touch sensor 52 and a substrate 54 described later, and as a result, it is possible to suppress the load from acting on them. Further, the rigidity of the operation panel 50 is improved by the frame 55. As a result, when a part of the outer peripheral portion of the operation panel 50 is pressed and the operation panel 50 is inclined, the operation panel 50 is prevented from being bent, and the pressing operation of the operation panel 50 is clearly transmitted to the switch 71. Can do.

  One of the operation panel 50 and the elastic member 61 has a protrusion. The other of the operation panel 50 and the elastic member 61 is formed with a hole into which a protrusion is fitted. Thereby, even when the user slides his / her finger on the operation panel 50 and the operation panel 50 moves slightly in the horizontal direction, the operation panel 50 returns to the initial position by the elastic force of the elastic member 61. In this example, as shown in FIG. 7, columnar protrusions 55 e are formed on the left and right of the lower surface of the frame 55. The contact portion 61a of the elastic member 61 has a size corresponding to the protrusion 55e, and a hole into which the protrusion 55e is fitted (see FIG. 5). As described above, the elastic portion 61b is formed in an annular shape surrounding the contact portion 61a. Therefore, even if the position of the operation panel 50 is shifted in any direction, the operation panel 50 can be returned to the initial position by the elastic force of the elastic portion 61b.

  As shown in FIG. 4, the operation panel 50 in this example includes a circuit board 54 on which a drive circuit for the touch sensor 52 is mounted, and a protective plate 53 disposed between the touch sensor 52 and the circuit board 54. Have. The protective plate 53 is made of an insulating material such as resin, and prevents electrical contact between the touch sensor 52 and the circuit board 54. The circuit board 54 and the touch sensor 52 are connected by a flat cable 52 a attached to the touch sensor 52. Thus, by providing the circuit board 54 on the operation panel 50, the circuit board 70 can be prevented from being enlarged, and as a result, the operation device 1 can be prevented from being enlarged.

  As shown in FIG. 5, the frame 55 has a recess 55 b that accommodates the circuit board 54. In other words, the frame 55 has an outer peripheral portion 55 c surrounding the circuit board 54. Due to this shape of the frame 55, the rigidity of the frame 55 can be increased.

  A flat cable 54 a connected to the circuit board 70 is attached to the circuit board 54. An opening 55 d that opens toward the outside of the frame 55 is formed in the outer peripheral portion 55 c of the frame 55. The flat cable 54a extends to the outside of the frame 55 through the opening 55d. In this example, the opening 55d is formed in the left portion of the outer peripheral portion 55c. In addition, a hole 60e is formed in the frame 60, and the flat cable 54a extends from the upper side (operation panel 50 side) to the lower side (circuit board 70 side) of the frame 60 through the hole 60e.

  The plurality of members constituting the operation panel 50 are attached to each other so that they can move integrally. These are attached, for example, by an adhesive. That is, the touch sensor 52 is bonded to the front panel 51, the protective plate 53 is bonded to the touch sensor 52, and the substrate 54 is bonded to the protective plate 53. The outer peripheral portion 55 c of the frame 55 is bonded to the protective plate 53. The attachment method of the surface panel 51, the touch sensor 52, the protection plate 53, the board | substrate 54, and the flame | frame 55 is not restricted to adhesion | attachment. For example, the outer peripheral portion 55 c of the frame 55 may be attached to the front panel 51 with a fastener such as a spiral in a state where the touch sensor 52 and the protection plate 53 are sandwiched between the outer peripheral portion 55 c and the front panel 51. As shown in FIG. 4, the protection plate 53 has a plurality (two in this example) of protrusions 53a on its lower surface. A hole into which the protrusion 53a is fitted is formed in the outer peripheral portion 55c of the frame 55. Thereby, the shift | offset | difference of the relative position of the flame | frame 55 and the protection plate 53 can be suppressed effectively. Such a protrusion 53a does not necessarily have to be formed.

  As described above, the opening 42 that exposes the surface of the operation panel 50 is formed in the upper housing 41. As shown in FIG. 3, the rear edge 42 c of the opening 42 is located on the rear side of the operation panel 50 and is along the rear edge of the operation panel 50. On the other hand, the front edge 42b of the opening 42 is located below the forefront portion of the operation panel 50 (see FIG. 6). That is, the edge of the opening 42 does not include a portion located on the front side of the operation panel 50. As a result, the user can smoothly slide his / her finger forward on the operation panel 50. Further, the user can smoothly press the frontmost part of the operation panel 50. The upper housing 41 has an upper surface portion 41 e that forms the upper surface of the operation device 1 and a front surface portion 41 f that forms the front surface of the operation device 1. The rear edge 42c and the left and right edges 42a of the opening 42 described above are formed on the upper surface portion 41e, and the front edge 42b is formed on the front surface portion 41f.

  The upper housing 41 is formed with a stopper portion 43 that restricts the forward movement of the operation panel 50. In this example, as shown in FIG. 7, the upper housing 41 has two stopper portions 43 on the lower surface of the upper surface portion 41e. The stopper portions 43 in this example are positioned on the left and right sides of the opening 42, and are formed in a wall shape along the left and right edges of the operation panel 50 (in this example, the left and right edges of the front panel 51). The front panel 51 has stopper portions 51a on the right and left edges. The stopper portion 51 a in this example protrudes outward in the left-right direction from the rear ends of the left and right edges of the front panel 51, and is located on the rear side of the rear end 43 a of the stopper portion 43. When the operation panel 50 attempts to move forward, the stopper portion 51 a hits the rear end 43 a of the stopper portion 43. As a result, the forward movement of the operation panel 50 is restricted.

  Thus, the stopper portion 43 is formed on the upper housing 41 that constitutes the outer surface of the operation device 1. Thereby, the tolerance of the position of the operation panel 50 with respect to the upper housing 41 is reduced, and the appearance of the operation device 1 can be improved. Further, in this example, the stopper portion 51 a is formed on the front panel 51 constituting the outer surface of the operation device 1. Thereby, the tolerance of the position of the surface panel 51 with respect to the upper housing 41 is reduced, and the appearance of the operation device 1 can be further improved. Further, in the structure in which the stopper part 51a is formed on the left and right edges of the front panel 51, for example, the lower edge of the front part 51c (see FIG. 4) described later provided at the foremost part of the front panel 51 functions as the stopper part. The contact area between the stopper portion 51a and the upper housing 41 can be reduced as compared with the structure to be performed. As a result, it is possible to reduce the resistance to the pressing operation of the operation panel 50 by the user.

  As described above, the stopper portion 43 in this example is formed in a wall shape along the left and right edges of the front panel 51. That is, the front panel 51 is disposed between the left and right stopper portions 43. Therefore, the stopper portion 43 also restricts the movement of the operation panel 50 in the left-right direction.

  As described above, the upper housing 41 does not have an edge located on the front side of the front edge of the surface panel 51. Therefore, the front edge of the front panel 51 constitutes the front edge of the upper surface of the central portion 21 of the operation device 1. The surface panel 51 of the example shown here has the upper surface part 51b to which the touch sensor 52 is attached, as shown in FIG. The touch sensor 52 detects the position of the user's finger on the surface of the upper surface portion 51b. The front edge of the upper surface part 51 b constitutes the front edge of the central part 21. The front panel 51 further includes a front surface portion 51c. The front surface portion 51c extends from the front side of the upper surface portion 51b (more specifically, the front edge of the upper surface portion 51b) and constitutes the front surface of the operation device 1. The front surface portion 51c and the upper surface portion 51b in this example have a substantially L-shaped cross section. By providing the front panel 51c on the front panel 51, the rigidity of the front panel 51 can be improved. As a result, when a part of the outer peripheral portion of the operation panel 50 is pressed, the operation panel 50 is prevented from being bent, and the pressing operation of the operation panel 50 can be clearly transmitted to the switch 71.

  As shown in FIG. 6, the front edge 42 b of the opening 42 formed in the upper housing 41 is located below the front surface portion 51 c of the surface panel 51. A clearance that allows the operation panel 50 to move downward is provided between the front edge 42b and the lower edge of the front surface portion 51c. The front edge 42b is formed with a shielding part 42d that protrudes upward and is located inside the front face part 51c. The shielding part 42d prevents the inside of the operation device 1 from being seen through the clearance.

  As shown in FIG. 4, the surface panel 51 of this example has side portions 51 d that respectively descend from the left and right edges. The side part 51d in this example is lowered from the foremost part of the left and right edges. Thereby, the rigidity of the surface panel 51 can be further improved. Note that the side surface portion 51 d may be lowered from the entire left and right edges of the front panel 51.

  As described above, the operation device 1 includes the frame 60 disposed on the upper side of the circuit board 70 and the operation panel 50 positioned on the upper side of the frame 60. The operation panel 50 includes a surface touched by the user's finger and a touch sensor for detecting the position of the user's finger touching the surface, and is arranged to be movable up and down so that the user can perform a pressing operation. . An elastic member 61 that biases the operation panel 50 upward is disposed between the frame 60 and the operation panel 50. According to this structure, the user can slide his / her finger on the operation panel 50 or perform a pressing operation while sliding the operation panel 50, thereby diversifying the operation method. In addition, since it is not necessary to provide a region for attaching the elastic member 61 on the surface of the circuit board 70, it is possible to suppress a reduction in the degree of freedom in layout of components and wiring on the circuit board 70.

  Further, a switch 71 for detecting the downward movement of the operation panel 50 is mounted on the circuit board 70, the frame 60 has a shape that avoids a position corresponding to the switch 71, and the operation panel 50 is formed on the lower surface thereof. , A pressing portion 55a for pressing the switch 71 is provided. According to this structure, a cable that connects the switch 71 and the circuit board 70 becomes unnecessary, and thus the cost of the operation device 1 can be reduced.

  Further, the operation panel 50 is arranged so that the pressed part can be lowered regardless of which part of the surface is pressed. According to this structure, the operability of the operation panel 50 can be improved.

  The operation panel 50 has a frame 55 formed with a pressing portion 55a on the lower surface thereof. According to this structure, the rigidity of the operation panel 50 can be improved. As a result, the pressing operation of the operation panel 50 can be clearly transmitted to the switch 71.

  One of the operation panel 50 and the elastic member 61 has a protrusion, and the other has a hole into which the protrusion is fitted. With this structure, even if the operation panel 50 moves slightly in the horizontal direction, the operation panel 50 can be returned to the initial position by the elastic force of the elastic member 61.

  An operation device disclosed in US Pat. No. 6,394,906 has operation members such as buttons and operation sticks. By operating the operation member, the user can move an object displayed on a display device connected to the information processing device or select a menu from a menu list. The operations that the user can perform on the conventional operation device are a button pressing operation, an operation stick tilted, and an operation of rotating the operation stick in the tilted state. If the user's operations can be further diversified, the operability of the operation device can be improved. The operation device 1 is arranged on the upper surface of the operation device 1 and supported so as to be movable up and down so that the user can perform a pressing operation. The operation device 1 detects the surface touched by the user's finger and the position of the user's finger touching the surface. A plate-like operation member (that is, the operation panel 50) including the touch sensor 52. Further, the operation device 1 has an opening 42 that exposes the surface of the operation panel 50, a front edge 42 b of the opening 42 is formed below the operation panel 50, and a stopper that restricts the forward movement of the operation panel 50. The housing 40 in which the part 43 is formed is provided. According to this structure, the user can smoothly slide his / her finger forward on the operation panel 50. Further, the user can smoothly press the frontmost part of the operation panel 50.

  The operation panel 50 includes a surface panel 51 that constitutes a surface that is touched by a user's finger, and a stoppered portion 51 a is formed in which the stopper portion 43 hits the surface panel 51. According to this structure, the tolerance of the position of the surface panel 51 with respect to the upper housing 41 is reduced, and the appearance of the operation device 1 can be improved.

  The operation panel 50 includes a surface panel 51 that constitutes a surface that is touched by a user's finger. The surface panel 51 extends from the front side of the upper surface portion 51b and the upper surface portion 51b to which the touch sensor 52 is attached. And a front surface portion 51c constituting the front surface. According to this structure, the rigidity of the operation panel 50 can be improved.

  The operation panel 50 has stoppers 51a on the left and right sides, and the upper housing 41 has two stoppers 43 that restrict the forward movement of the left and right stoppers 51a. According to this structure, for example, the contact area between the stopper portion 51a and the upper housing 41 can be reduced as compared with a structure in which the lower edge of the front surface portion 51c of the front panel 51 functions as the stopper portion. As a result, it is possible to reduce the resistance to the pressing operation of the operation panel 50 by the user.

  The present invention is not limited to the operation device 1 described above, and various modifications can be made.

  For example, the elastic member 61 is made of rubber. However, the elastic member may be formed of a spring. 8 and 9 are diagrams illustrating an example in which the elastic member is formed of a spring. 8 is an exploded perspective view, and FIG. 9 is a cross-sectional view obtained by the same cut surface as FIG. In these drawings, the same portions as those described above are denoted by the same reference numerals. Hereinafter, differences from the example of FIGS. 1 to 7 will be described, and other points are the same as those of the example of FIGS.

  In the example shown in FIG. 8, an elastic member 161 that biases the operation panel 50 upward is attached to the frame 60. The elastic member 161 in this example is a leaf spring. The elastic member 161 biases four points on the lower surface of the operation panel 50 (specifically, the lower surface of the frame 55) upward. The four points are separated from each other in the front-rear direction and the left-right direction. Specifically, two elastic members 161 located on the left and right of the hole 60a are attached to the frame 60. Each elastic member 161 has an attachment portion 161c attached to the frame 60 and two plate portions 161a. The end portion of the plate portion 161a is in contact with the lower surface of the frame 55 and pushes the frame 55 upward. The two plate portions 161a in this example extend outward in the left-right direction from the mounting portion 161c. That is, the two plate portions 161 a extend in a direction away from the hole 60 a formed in the frame 60. Further, the two plate portions 161a are inclined forward and backward, respectively. As a result, the end portions of the two plate portions 161 a are positioned away from each other in the front-rear direction, and the two elastic members 161 push the four corners of the frame 55 upward.

  In the above description, the operation panel 50 is formed such that the width in the left-right direction increases toward the front. However, the operation panel may be rectangular in plan view. FIG. 10 is a diagram showing an operation panel 150 as an example of such an operation panel. 4A is a plan view of the operation panel 150, FIG. 2B is a cross-sectional view taken along the line bb of FIG. 1A, and FIG. It is sectional drawing in a cc line.

  As shown in FIG. 3C, the operation panel 150 has a surface panel 151 that constitutes the surface thereof. The front panel 151 has an upper surface portion 151a to which the touch sensor 52 is attached and a front surface portion 151b that is lowered from the front side of the upper surface portion 151a. The front surface portion 151b constitutes the front surface of the operation device 1 in the same manner as the front surface portion 51c of the operation panel 50. That is, also in this example, the front edge 42b of the opening 42 of the upper housing 41 is located below the front surface portion 151b. In addition, the front panel 151 has side portions 151c that descend from the left and right edges of the upper surface portion 151a. Thus, the rigidity of the surface panel 151 can be increased by forming the front surface portion 151 b and the left and right side surface portions 151 c on the surface panel 151.

  As shown in FIG. 5B, the front panel 151 has flange portions 151d on the left and right edges. Specifically, the flange portion 151d protrudes outward in the left-right direction from the lower edge of the side surface portion 151c. The flange portion 151 d is located below the left and right edges 42 a of the opening 42 formed in the upper housing 41. Thereby, the upward movement of the operation panel 150 is restricted.

  As shown in FIG. 5A, the edge of the opening 42 includes a portion located on the front side of the flange portion 151d. This portion functions as a stopper portion that restricts the forward movement of the operation panel 50, and the front end of the flange portion 151d functions as a stopper portion.

  In the above description, the operation device 1 has the two elastic members 61 formed of rubber or the two elastic members 161 that are leaf springs. The two elastic members 61 may be connected to each other. Similarly, the two elastic members 161 may be connected to each other.

  Further, the pressing portion 55 a for pressing the switch 71 is formed on the frame 55. However, the frame 55 is not necessarily provided on the operation panel 50. In this case, the pressing portion 55a may be formed on the protective plate 53, and the substrate 54 may have a hole at a position corresponding to the pressing portion 55a.

  Further, the operation panel 50 may not include the substrate 54. In this case, the operation panel 50 may not include the protection plate 53 and the frame 55. In this case, the pressing portion 55a may be formed on the front panel 51.

  DESCRIPTION OF SYMBOLS 1 Operation device, 10L, 10R Hold part, 11 Operation button, 12 Grip, 19 Direction key, 21 Center part, 31 Operation stick, 40 Housing, 41 Upper housing, 41e Upper surface part, 41f Front surface part, 42 Opening, 42a Left and right Edge, 42b Front edge, 42c Rear edge, 43 Stopper part, 50 Operation panel, 51 Front panel 51, 51a Stopped part, 51b Upper surface part, 51c Front part, 52 Touch sensor, 53 Protection plate, 54 Circuit board, 55 Frame, 55a pushing part, 55e protrusion, 60 frame, 60a hole, 61 elastic member, 62 film, 63 stopper part, 70 circuit board, 71 switch, 150 operation panel, 151 surface panel, 151d flange part, 161 elastic member, 161a Plate, 161c mounting .

Claims (9)

A circuit board;
An operation stick having a support mechanism disposed on the circuit board at the base;
A main body frame disposed above the circuit board and avoiding the position of the support mechanism of the operation stick ;
A housing housing the circuit board, the main body frame, and the support mechanism;
The upper surface of the main body frame includes a surface touched by the user's finger and a touch sensor for detecting the position of the user's finger touching the surface, and can be moved up and down so that the user can perform a pressing operation. A plate-shaped operation member disposed;
An elastic member disposed between the main body frame and the operation member and biasing the operation member upward;
An operation device comprising: The operation device according to claim 1,
A switch for detecting downward movement of the operation member is mounted on the circuit board,
The body frame has a shape that avoids a position corresponding to the switch,
The operation member has a pressing portion for pressing the switch on a lower surface thereof.
An operation device characterized by that. The operation device according to claim 1 or 2,
The operation member is arranged so that the pressed portion can be lowered regardless of which part of the surface is pressed.
An operation device characterized by that. The operation device according to claim 2,
The operation member has an operation member frame in which the push portion is formed on a lower surface thereof.
An operation device characterized by that. The operation device according to claim 1,
One of the operating member and the elastic member has a protrusion,
The other of the operation member and the elastic member is formed with a hole into which a protrusion fits.
An operation device characterized by that. A circuit board;
A main body frame disposed on the upper side of the circuit board;
A housing for housing the circuit board and the main body frame;
The upper surface of the main body frame includes a surface touched by the user's finger and a touch sensor for detecting the position of the user's finger touching the surface, and can be moved up and down so that the user can perform a pressing operation. A plate-shaped operation member disposed;
An elastic member disposed between the main body frame and the operation member and biasing the operation member upward;
The housing is formed with an opening for exposing the surface of the operation member,
The front edge of the opening is located below the front edge of the operating member ;
The housing has a stopper portion that restricts the forward movement of the operation member. The operation device according to claim 6,
The operation member has a surface panel constituting the surface that is touched by a user's finger,
A stoppered portion is formed on which the stopper portion hits the surface panel,
An operation device characterized by that. The operation device according to claim 6,
The operation member has a surface panel constituting the surface that is touched by a user's finger,
The front panel includes an upper surface portion to which the touch sensor is attached, and a front surface portion that extends from a front side of the upper surface portion and constitutes a front surface of the operation device.
An operation device characterized by that. The operation device according to claim 6,
The operation panel has stopper portions on the left and right sides thereof,
The housing has, as the stopper portion, two stopper portions that restrict forward movement of the left and right stopper portions, respectively.
An operation device characterized by that.

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